Cardiotomy reservoir

ABSTRACT

A reservoir for the collection, purification, and storage of blood during surgical procedures which comprises a hollow blood storage casing having a hollow, perforated member within said casing extending from end-to-end thereof. Blood defoaming means and a filter are carried by the hollow member, so that the blood defoamer and filter are noncollapsible, and extend the entire length of the chamber within the casing, with one of the ports communicating with the interior of the hollow member, so that blood passes through the perforations of the hollow member and defoamer-filter means.

United States Patent 11 1 Leonard et a1.

l 54 l CARDIOTOMY RESERVOIR [75] Inventors: Ronald J. Leonard. Elk Grove Village; Jonathan Wayne Takagishi, Arlington Heights. both of 111.

[73] Assignee: Baxter Laboratories, Inc., Morton Grove. Ill.

[22] Filed: July 20, 1973 [21] Appl. No.: 381,311

[52] US. Cl. 55/178; 210/436; 210/440; 210/457; 210/D1G. 23 [51] Int. Cl 801d 19/02; BOld 35/00 [58] Field of Search 210/65, 198, 209, 256, 210/257, 436, 443, 457, 458; 55/87, 178

156] References Cited UNITED STATES PATENTS 3.384.242 5/1968 Kudlatz ct a1 210/436 3.507.395 4/1970 Bentley 210/443 170L433 10/1972 Krakuucr ct ul. 210/436 June 24, 1975 3.768.653 10/1973 Brumfield 210/436 X Primary Eraminer-Samih N. Zaharna Ass-[slum 15.\'aminerRichard W. Burks Attorney, Agent, or Firm-Garrettson Ellis; Louis Altman 5 7 ABSTRACT A reservoir for the collection, purification, and storage of blood during surgical procedures which comprises a hollow blood storage casing having a hollowperforated member within said casing extending from end-to-end thereof. Blood defoaming means and a filter are carried by the hollow member. so that the blood defoamer and filter are noncollapsible. and extend the entire length of the chamber within the easing, with one of the ports communicating with the in terior of the hollow member, so that blood passes through the perforations of the hollow member and defoamer-filter means.

9 Claims, 2 Drawing Figures CARDIOTOMY RESERVOIR BACKGROUND OF THE INVENTION Cardiotomy reservoirs are used during major surgery to collect blood which has been accumulated in a surgical incision site or elsewhere by an air-driven cardiotomy sucker or the like.

It is very desirable to reinfuse this blood into the patient since a patients own blood is far superior to any donated blood that he can receive. However. blood which has been removed from an incision site is likely to contain small clots and other forms of solid debris, which should not be reinfused into the patient.

Hence, blood is passed into the cardiotomy reservoir, where it passes through a filter to remove air bubbles and the undesirable solid debris, and where it can be stored under blood preserving conditions until the surgeon elects to return the blood to the patient, which is usually immediately after purification of the blood.

The prior art device of US. Pat. No. 3,507,395 is commercially available and widely used as a cardiotomy reservoir. However, it has certain disadvantages which limit its effective use. First, the filter of the prior art reservoir is unsupported, and thus is subject to collapse under certain conditions of use. Also, the filter does not extend the entire length of the unit. Hence, air from cardiotomy suckers entering along with the blood into the reservoir must migrate through the filter, and may bubble through filtered blood prior to reaching the vent from which the air leaves the reservoir. This may initiate the formation of small bubbles in the filtered blood, and have other bad effects.

Similarly, any resupply of blood which is added to the prior art cardiotomy reservoirs in the conventional manner at the upper end thereof is not filtered prior to infusion to the patient. Hence, the small clots which may be present in resupply blood (which may come fresh from a blood bag or the like) are not removed prior to infusion.

DESCRIPTION OF THE INVENTION In accordance with this invention, the above problems of prior art cardiotomy reservoirs are eliminated, and a cardiotomy reservoir which is easy to manufacture and which can provide improved utilization of the filter material is provided.

The invention of this application comprises a reservoir for the collection, purification, and storage of blood during surgical procedures, including a hollow blood storage casing having a first port positioned at one end thereof and a hollow member positioned within the casing and extending from end-to-end thereof. The hollow member is generally a tube having a bore positioned to communicate at one end with the first port. The wall of the hollow member defines perforations for the flow of blood through the wall between the interior and the exterior of the hollow member. Also, the hollow member carries a filter for the de foaming and other purification of blood.

A second port is positioned adjacent the same end of the casing as the first port, exterior of the hollow member, so that a blood flow path is defined between the first port, the hollow member and filter means, and the second port.

The hollow member is generally rigid, providing internal support for the casing, to prevent the ends of it from doming inwardly when the reservoir is placed under reduced pressure. Also, the hollow member serves as a support member for the filter, so that the filter will not collapse under unfavorable conditions, as in the prior art devices.

A blood resupply port is positioned at the end of the casing opposite the blood inlet and outlet, to communi' cate with the interior of the filter member, so that resupplied blood must pass through the filter before administration to the patient, A vent port also typically communicates with the upper end of the bore of the tubular member, so that gas entering at the bottom of the hollow member will not enter into contact with filtered blood. but will pass through the length of the hollow member out of the vent port.

As a further advantage, the bore of the hollow member is typically about two or three times the diameter ofthe first port, which is typically the inlet port. Hence, the volume of blood contained by the bore of the hollow member is relatively low compared with the corresponding volume of blood within the filter member of US. Pat. No. 3,507,395. Thus, in the device of this invention, the level of unprocessed blood tends to rise higher in the bore than a similar volume of unprocessed blood in the prior art reservoir, the result of which is to permit the blood to enter into contact with a larger amount of the available defoaming and filter material. which results in more efficient defoaming and filtering.

In the drawings,

FIG. 1 is an elevational view of a typical cardiotomy reservoir of this invention.

FIG. 2 is an elevational view of the cardiotomy reservoir of FIG. 1, rotated about its longitudinal axis and shown in partial vertical section.

Referring to the drawings, the cardiotomy reservoir of this invention has a casing 10, which comprises a pair of mating shells l2, 14, which are sealed together along their respective flanges 16 by an appropriate method such as heat sealing or solvent sealing, to provide an enclosed, blood-receiving chamber.

Hollow member I8 is typically a tube made of perforated polyethylene or another suitable plastic material, and extends from end-to-end of casing 10, being sealed at the ends by elastomeric plugs 20, 22, for leak-proof sealing. Plugs 20, 22, in turn, are secured in position about tubular sections 24, 26, which are typically integrally molded parts of casing halves l2 and 14 respectively. Tubular extension 26 serves to define first port 28, which communicates with one end of the bore of tubular member 18 and typically serves the blood inlet to the reservoir. Second port 30 is defined in a conventional manner with a plastic tubular insert at the same end of casing 10 as first port 28, but in a position exterior to the hollow, tubular member 18. As a result of this, the blood flow path through the reservoir enters by way of first port 28, passing through the perforations of tubular member 18 to chamber 31 exterior of the tubular member, and then out by way of second port 30.

Perforations 32 of tubular member 18 are of a size to provide uniform, low resistance flow of blood through the wall of the tubular member. Perforations 32 can be, for example, about Va inch square, or larger, fewer, round holes about A inch in diameter can be used, or any other suitable dimension.

The perforations 32 can be distributed along the entire length of hollow member 18. Alternatively, a portion of the tubular member nearest first port 28 can be free of perforations, for about /2 to 36 of the length of hollow member 18. for example up to about line 3434. to force the blood entering the bore of hollow member 18 to rise in the bore and thus spill out into a central or upper portion of the filter means 36 carried by hollow member [8. Thus. the blood is introduced to the filter means 36 at an intermediate place along its length. and can spill downwardly through the filter means. enlarging the area of the filter means used even at low flow rates of blood. Also. this prevents filtered blood from returning to the bore of hollow member [8.

First port 28 can communicate with branched connectors 29. 29 having conventional barbs 31 to facilitate connection to clastomeric tubing. This permits blood from more than one source to be provided to the reservoir. Connectors 29. 29' are sealed with conventional removable sheaths 33 to maintain sterility prior to use.

Filter means 36 is shown to comprise two components: a blood defoaming means 38. which may conventionally be made of spun metal or plastic fibers car rying an organosilicon defoaming agent. surrounded and retained by a tubular filter 40. which can be made of nylon fabric mesh having openings in the range of 20 to 200 microns. preferably about 120 microns in width. to permit blood cells and other natural components of blood to pass through the fabric 40. but to prevent the passage of blood clots and other solid debris.

The fibers of the defoaming means 38 and tubular filter 40 are carried about tubular member 18. The ends of tubular filter 40 are secured by pinching between the respective ends of tubular member 18 and sealing members 20, 22. so that the ends of the tubular filter 40 are tightly retained between the ends of the tubular member and the casing to prevent collapse of filter 40 and the defoaming means 38 contained therein.

Barrier 29 is shown in dotted lines to indicate that it can optionally be present to occlude the bore of hollow member 18. This prevents the mixing of blood entering first port 28 and blood entering resupply port 44 (FIG. 1) prior to filtering. when it is desired to prevent such mixing.

At the upper end of the reservoir. a vent port 42 is provided for the removal of air or other gas which enters the reservoir along with the blood through first port 28. When barrier 29 is not used. gas entering the reservoir can pass directly upwardly through the bore of tubular member 18 and out of vent port 42 without coming into contact with filtered blood. which can re side in chamber 31 exterior to filter 40. Another vent port 46 (FIG. I) can be provided for the additional venting of gas which is collected in the area exterior to filter member 36. Port 46 is shown with a conventional sterile sealing member 48 which can be removed prior to use. and barbs 50 on the port for reliable sealing connection with an elastomeric tube. if desired. Vent port 46 can also be connected to a vacuum line to provide suction filtration of the blood when desired.

Also. the function of ports 42 and 46 can be interchanged. or one of these ports can also be used for monitoring pressure during operation.

Upper tubular member 24 is in communication with a conventional three-way valve 52 which controls the access through a branched conduit leading alternativcly to vent port 42 and a blood resupply port 44. which are shown to be closed with conventional removable sealing sleeves. Blood resupply port 44 can be connected to an extra source of blood such as a unit of donatcd blood in a blood bag. The administration of this donated blood to the patient by way of the reservoir of this invention can be controlled by appropriate manipulation of valve 52. When extra blood is not being administered through port 44. valve 52 can be manipulated to close port 44 and open vent port 42 for normal operation. Any donated blood which is administered is delivered to the bore of hollow member l8. so that it must pass through filter member 36 prior to administra tion to the patient by way ofthc second port 30. which is typically the outlet port. Valve 52 also has a completely closed position for use during suction or the like. Outlet port 30 also includes a barbed nozzle 54 to facilitate the sealed connection with an elastomeric tube. and a sterile sealing sleeve 56 ofconventional design. which is removed prior to use.

In accordance with this invention. an improved cardiotomy reservoir is provided having a number of substantial advantages over the prior art cardiotomy reservoirs. The device is internally reinforced to resist heavy suction pressure when such is necessary. and a filter member is provided in which more of the area is more uniformly utilized. rather than a large portion of the area being ovcrutilized and the remainder underutilized. Furthermore. air and other gases entering the reservoir can be vented without contacting the freshly fil tered blood. and the filter member can be reliably sccured in position. without danger of collapse. and without sewing or other laborous processes. by a simple clamping operation.

The above has been offered for illustrative purposes only. and is not to be considered as limiting the invention, which is defined in the claims below.

That which is claimed is:

l. A reservoir for the collection. purification and storage of blood during surgical procedures. which comprises: a hollow blood storage casing having a first port positioned at one end thereof; a generally rigid. hollow member positioned within said casing and extending from cnd-to-end thereof. said hollow member having a bore positioned to communicate at one end thereof with said first port. said hollow member having a wall defining perforations for the flow of blood through said wall between the interior and exterior of said hollow member; said hollow member also carrying filter means for the purification of blood. a second port communicating through the casing. exterior to said hollow member. whereby a blood flow path is defined through said first port, said hollow member and filter means. and said second port; and a vent port defined at an end of said casing opposite to said one end, said vent port being in position to communicate with the bore of said hollow member at said end opposite said first port, to directly vent gas bubbles passing into said bore through said first port.

2. The reservoir of claim 1 in which a blood resupply port is defined in said casing in a position to communicate with the bore of said hollow member at said end opposite to said first port.

3. The reservoir of claim 2 in which the filter means comprises blood defoaming means encased in a filter. and positioned exterior of said hollow member along essentially the entire length thereof.

4. The reservoir of claim 3 in which said filter is flexible and tubular. and is secured about said hollow member by securance of the ends of said tubular filter between the ends of said hollow member and the casing.

lective venting through one branch and blood resupply through another branch.

8. The reservoir of claim 5 in which the bore of said hollow member is about two to three times greater in cross-sectional dimension than the cross-sectional dimension of said first port.

9. The reservoir of claim 5 in which said second port is positioned at said one end. 

1. A reservoir for the collection, purification and storage of blood during surgical procedures, which comprises: a hollow blood storage casing having a first port positioned at one end thereof; a generally rigid, hollow member positioned within said casing and extending from end-to-end thereof, said hollow member having a bore positioned to communicate at one end thereof with said first port, said hollow member having a wall defining perforations for the flow of blood through said wall between the interior and exterior of said hollow member; said hollow member also carrying filter means for the purification of blood, a second port communicating through the casing, exterior to said hollow member, whereby a blood flow path is defined through said first port, said hollow member and filter means, and said second port; and a vent port defined at an end of said casing opposite to said one end, said vent port being in position to communicate with the bore of said hollow member at said end opposite said first port, to directly vent gas bubbles passing into said bore through said first port.
 2. The reservoir of claim 1 in which a blood resupply port is defined in said casing in a position to communicate with the bore of said hollow member at said end opposite to said first port.
 3. The reservoir of claim 2 in which the filter means comprises blood defoaming means encased in a filter, and positioned exterior of said hollow member along essentially the entire length thereof.
 4. The reservoir of claim 3 in which said filter is flexible and tubular, and is secured about said hollow member by securance of the ends of said tubular filter between the ends of said hollow member and the casing.
 5. The reservoir of claim 4 having an additional vent port exterior to said hollow member and positioned at an end opposite said first port.
 6. The reservoir of claim 5 in which a portion of said hollow member nearest the first port is free of perforations.
 7. The reservoir of claim 5 in which said blood resupply port and vent port are combined in a branched conduit, said conduit having valve means for selectively opening a single branch of said conduit, to permit selective venting through one branch and blood resupply through another branch.
 8. The reservoir of claim 5 in which the bore of said hollow member is about two to three times greater in cross-sectional dimension than the cross-sectional dimension of said first port.
 9. The reservoir of claim 5 in which said second port is positioned at said one end. 